Light-cone Distribution Amplitudes of Vector Mesons within the Self-Consistent Light-front Quark Model
Abstract: In this paper, we investigate the twist-2 and twist-3 light-cone distribution amplitudes (LCDAs) of vector mesons within the light-front quark model, and the $n$th Gegenbauer moment $a_n(μ)$, $ξ$-moment $\langle ξn\rangle{\parallel(\perp)}$ and transverse moment $\langle \mathbf{k}n_\perp\rangle{\parallel(\perp)}$ are also carried out. Adopting the parameter set fixed by confinements from the mesonic decay constants, we perform the numerical analysis and the results reveal several key insights: (i) The flavor symmetry breaking effects are more pronounced in the twist-3 LCDAs of vector mesons, which leads to the establishment of $a_1\perp>a_1\parallel$ and $\langle ξn\rangle\perp>\langle ξn\rangle\parallel$. This consists with previous findings in research for the LCDAs of pseudoscalar mesons. (ii) For vector mesons, the twist dependence decreases in the heavy quark limit which lead to $φ{2}\parallel(x)\simeqφ{3}\perp(x)$. For pseudoscalar and vector mesons composed of the same quark constituents, their LCDAs with the same twist exhibit similarity and gradually converge as the increasing of quark mass, i.e., $φ{2}A(x)\simeqφ{2}\parallel(x)$ and $φ{3}P(x)\simeqφ{3}\perp(x)$ in $m_q\rightarrow\infty$. This reveals the spin independence of LCDAs in the heavy quark limit. Furthermore, it is found $φA_2(x)\simeqφ_2\parallel(x)\approxφ_3P(x)\simeqφ_3\perp(x)$ with the replacement $M\rightarrow M_0$ and in the heavy quark limit.
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